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Curriculum Vita for Abbas Khayyer April 26th, 2016
PERSONAL INFORMATION
Name: Abbas Khayyer
Nationality: Iranian
Date of Birth: June, 1979
Present Affiliation: Associate Professor
Laboratory of Applied Mechanics
Department of Civil and Earth Resources Engineering
Kyoto University
Katsura Campus, Nishikyo-ku, Kyoto, 615-8540, Japan
E-mail: [email protected]
EDUCATION
Oct. 2005 – Sep. 2008 Doctoral Course Student, Department of Urban &
Environmental Engineering, Kyoto University, Japan
Dissertation Title: “Improved Particle Method by Refined
Differential Operator Models for Simulation of Free-
Surface Fluid Flows”
Supervisor: Professor Hitoshi Gotoh
Sep. 2002 – Mar. 2005 Master Course Student, College of Civil Engineering, Iran
University of Science and Technology, Iran
Thesis Title: “Numerical Study of Breaking Waves and
Turbulence Effects” (Grade: 19.62 / 20)
Supervisors: Dr. Abbas Yeganeh-Bakhtiary, Dr. Abbas
Ghaheri
Sep. 1997 – Sep. 2002 Bachelor Course Student, Department of Civil Engineering,
Shiraz, Iran
Oct. 1994 – Jun. 1997 High School Student, Tohid High School, Shiraz, Iran
Oct. 1992 – Sep. 1994 High School Student, Keira High School, Wollongong,
Australia
1
EMPLOYMENT
April 2013 – present Associate Professor, Department of Civil and Earth
Resources Engineering, Kyoto University, Japan
Nov. 2009 – March 2013 Lecturer, Department of Civil and Earth Resources
Engineering, Kyoto University, Japan
Oct. 2008 – Oct. 2009 Postdoctoral Research Associate, Department of Urban &
Environmental Engineering, Kyoto University, Japan
TEACHING DETAILS
Graduate School
Coastal Wave Dynamics
Computational Fluid Dynamics
Undergraduate School
Coastal Environmental Engineering
Hydraulics and Exercises
Thermodynamics
Design of Infrastructure
Exercises in Infrastructure Design
Introduction to Global Engineering
Scientific English Debate
AWARDS
Excellent Student Award, Shiraz University, 1999.
Scholarship of the Japanese Government, Ministry of Education, Culture, Sports, Science
and Technology for the Doctoral Course (Oct. 2005 – Sep. 2008).
Best Paper Award of international sessions for the paper “Refined simulation of solitary
plunging breaker by CMPS method”, 52nd Annual Meeting of Hydraulic Engineering,
Japan Society of Civil Engineers (JSCE), March 2008, Hiroshima, Japan.
2
PUBLICATIONS
FullRefereedJournalPapers(ISIJournals)
1) Khayyer, A., Gotoh, H. and Shao, S.D.: Corrected Incompressible SPH method for
accurate water-surface tracking in breaking waves, Coastal Engineering, 55(3), 236-250,
2008. [Link; Citations by ISI Web of Knowledge, Scopus] [Citation Index: Ranked 1st
among the 2008 Coastal Engineering papers]
2) Khayyer, A. and Gotoh, H.: Development of CMPS method for accurate water-surface
tracking in breaking waves, Coastal Engineering Journal, 50(2), 179-207, 2008. [Link;
Citations by ISI Web of Knowledge, Scopus] [Citation Index: Ranked 1st among the 2008
Coastal Engineering Journal papers]
3) Khayyer, A. and Gotoh, H.: Modified MPS methods for prediction of 2D wave impact
pressure, Coastal Engineering, 56(4), 419-440, 2009. [Link; Citations by ISI Web of
Knowledge, Scopus] [Citation Index: Ranked 2nd among the 2009 Coastal Engineering
papers]
4) Khayyer, A., Gotoh, H. and Shao, S.D.: Enhanced predictions of wave impact pressure
by improved incompressible SPH methods, Applied Ocean Research, 31(2), 111-131,
2009. [Link; Citations by ISI Web of Knowledge, Scopus] [Citation Index: Ranked 1st
among the 2009 Applied Ocean Research Papers]
5) Khayyer, A. and Gotoh, H.: Wave impact pressure calculations by improved SPH
methods, International Journal of Offshore and Polar Engineering, 19(4), 300-307, 2009.
[Link; Citations by ISI Web of Knowledge, Scopus]
6) Khayyer, A. and Gotoh, H.: A higher order Laplacian model for enhancement and
stabilization of pressure calculation by the MPS method, Applied Ocean Research, 32(1),
124-131, 2010. [Link; Citations by ISI Web of Knowledge, Scopus] [Citation Index:
Ranked 1st among the 2010 Applied Ocean Research Papers]
7) Khayyer, A. and Gotoh, H.: On particle-based simulation of a dam break over a wet
bed, Journal of Hydraulic Research, 48(2), 238-249, 2010. [Link; Citations by ISI Web of
Knowledge, Scopus]
8) Khayyer, A. and Gotoh, H.: Discussion on “Numerical simulation of impact loads using
a particle method”, Ocean Engineering, 37(16), 1477-1479, 2010. [Link; Citations by ISI
Web of Knowledge, Scopus]
9) Khayyer, A. and Gotoh, H.: “Enhancement of stability and accuracy of the Moving
Particle Semi-implicit Method”, Journal of Computational Physics, 230(8), 3093-3118,
3
2011. [Link; Citations by ISI Web of Knowledge, Scopus]
10) Hori, C., Gotoh, H., Ikari, H. and Khayyer, A.: “GPU-acceleration for Moving Particle
Semi-implicit method”, Computers & Fluids, 51(1), 174-183, 2011. [Link; Citations by
ISI Web of Knowledge, Scopus]
11) Khayyer, A. and Gotoh, H.: “A 3D higher order Laplacian model for enhancement and
stabilization of pressure calculation in 3D MPS-based simulations”, Applied Ocean
Research, 37, 120-126, 2012. [Link; Citations by ISI Web of Knowledge, Scopus]
12) Khayyer, A. and Gotoh, H.: “Enhancement of performance and stability of MPS mesh-
free particle method for multiphase flows characterized by high density ratios”, Journal of
Computational Physics, 242, 211-233, 2013, [Link, Citations by ISI Web of Knowledge,
Scopus].
13) Tsuruta, N., Khayyer, A. and Gotoh, H.: “A short note on dynamic stabilization of
Moving Particle Semi-implicit method”, Computers and Fluids, 82, 158-164, 2013 [Link,
Citations by ISI Web of Knowledge, Scopus].
14) Liang, D., Gotoh, H., Khayyer, A. and Chen, J.: “Boussinesq modeling of solitary wave
and N-wave runup on coast”, Applied Ocean Research, 42, 144-154, 2013 [Link,
Citations by ISI Web of Knowledge, Scopus].
15) Gotoh, H., Khayyer, A., Ikari, H., Arikawa, T. and Shimosako, K.: “On enhancement of
Incompressible SPH method for simulation of violent sloshing flows”, Applied Ocean
Research, 46, 104-115, 2014 [Link, Citations by ISI Web of Knowledge, Scopus].
16) Hwang, S.C., Khayyer, A., Gotoh, H. and Park, J.C.: “Development of a fully
Lagrangian MPS-based coupled method for simulation of fluid-structure interaction
problems”, Journal of Fluids and Structures, 50, 497-511, 2014 [Link, Citations by ISI
Web of Knowledge, Scopus].
17) Tsuruta, N, Khayyer, A. and Gotoh, H.: “Space potential particles to enhance the
stability of projection-based particle methods”, International Journal of Computational
Fluid Dynamics, 29(1), 100-119, 2015 [Link, Citations by ISI Web of Knowledge,
Scopus]
18) Ikari, H., Khayyer, A. and Gotoh, H.: “Corrected higher order Laplacian for
enhancement of pressure calculation by projection-based particle methods with
applications in ocean engineering”, Journal of Ocean Engineering and Marine Energy,
ISSN: 2198-6444, 1(4), 361-376, 2015 [Link, Citations by ISI Web of Knowledge,
Scopus]
4
19) Khayyer, A. and Gotoh, H.: “A Multiphase Compressible-Incompressible Particle
Method for Water Slamming”, International Journal of Offshore and Polar Engineering,
ISSN: 1053-5381, 26(1), 20-25, 2016 [Link, Citations by ISI Web of Knowledge,
Scopus].
20) Gotoh, H. and Khayyer, A.: “Current achievements and future perspectives for
projection-based particle methods with applications in ocean engineering”, Journal of
Ocean Engineering and Marine Energy, in press, DOI: 10.1007/s40722-016-0049-3
[Link, Citations by ISI Web of Knowledge, Scopus].
21) Hwang, S.C., Park, J.C., Gotoh, H., Khayyer, A. and Kang, K.J. : “Numerical
simulations of sloshing flows with elastic baffles by using a particle-based fluid–structure
interaction analysis method”, Ocean Engineering, 118, 227-241, 2016. [Link, Citations by
ISI Web of Knowledge, Scopus].
FullRefereedJournalPapers(OtherJournals) 22) Khayyer, A., Yeganeh-Bakhtiary, A., Ghaheri, A. and Asano, T.: Numerical Simulation
of Breaking Waves by a VOF-Type Numerical Model, International Journal of Civil
Engineering, 2(4), pp. 201-212, 2004. [Link]
23) Khayyer, A. and Gotoh, H.: Applicability of MPS Method to Breaking and Post-
Breaking of Solitary Waves, Annual Journal of Hydraulic Engineering, JSCE, 51, pp.
175-180, 2007.
24) Khayyer, A., Gotoh, H. and Shao, S.D.: Development of CISPH method for accurate
water-surface tracking in plunging breaker, Annual Journal of Coastal Engineering,
JSCE, 54, pp. 16-20, 2007 (in Japanese).
25) Khayyer, A. and Gotoh, H.: Refined simulation of solitary plunging breaker by CMPS
method, Annual Journal of Hydraulic Engineering, JSCE, 52, pp. 121-126, 2008.
26) Khayyer, A. and Gotoh, H.: Particle-Based vs. Grid-Based Simulation of Plunging
Breaking Waves; A Basic Study, Journal of Hydroscience and Hydraulic Engineering,
JSCE, 26(1), pp. 1-9, 2008.
27) Khayyer, A. and Gotoh, H.: Development of CMPS-HS method for attenuation of
pressure fluctuation in particle method, Annual Journal of Coastal Engineering, JSCE,
55, pp. 16-20, 2008 (in Japanese).
28) Gotoh, H., Khayyer, A., Ikari, H. and Hori, H.: Development of 3D Parallelized CMPS
Method with Optimized Domain Decomposition, Journal of Japan Society of Civil
Engineers, Ser. B2 (Coastal Engineering), 65(1), pp. 41-45, 2009 (in Japanese). [Link]
5
29) Khayyer, A., Gotoh, H., Hori, H.: Accurate Particle Methods for Refined Simulations
of Complicated Breaking Waves, Journal of Japan Society of Civil Engineers, Ser. B2
(Coastal Engineering), 65(1), pp. 31-35, 2009 (in Japanese). [Link]
30) Gotoh, H., Khayyer, A., Hori, H.: A New Assessment Criterion of Free-Surface for
Stabilizing Pressure Field in Particle Methods, Journal of Japan Society of Civil
Engineers, Ser. B2 (Coastal Engineering), 65(1), pp. 21-25, 2009 (in Japanese). [Link]
31) Gotoh, H., Hori, H., Ikari, H. and Khayyer, A.: Semi-implicit algorithm of particle
method accelerated by GPU, Doboku Gakkai Ronbunshuu B, 66(2), 217-222, 2010.
[Link]
32) Gotoh, H., Khayyer, A., Ikari, H., Hori, H. and Ichikawa, Y.: Simulation of sloshing by
accurate particle method with higher order Laplacian model, Journal of Japan Society of
Civil Engineers, Ser. B2 (Coastal Engineering), 66(1), 51-55, 2010 (in Japanese). [Link]
33) Gotoh, H., Hori, H., Ikari, H. and Khayyer, A.: GPU-accelerated 3D MPS method for
numerical wave flume, Journal of Japan Society of Civil Engineers, Ser. B2 (Coastal
Engineering), 66(1), 56-60, 2010 (in Japanese). [Link]
34) Tsuruta, N., Khayyer, A. and Gotoh, H.: Dynamic stabilizer for an accurate DEM-MPS
method, Journal of Japan Society of Civil Engineers, Ser. B2 (Coastal Engineering),
69(2), 1006-1010, 2013 (in Japanese). [Link]
35) Gotoh, H., Khayyer, A., Tsuruta, N. and Yamamoto, K.: Numerical simulation of
breaking waves using an accurate particle method with SPS turbulence modeling, Journal
of Japan Society of Civil Engineers, Ser. B2 (Coastal Engineering), 69(2), 16-20, 2013
(in Japanese). [Link]
36) Gotoh, H., Arikawa, T., Khayyer, A., Ikari, H., Shimosako, K., Araki K. and Uehara
Y.: Accurate Incompressible SPH Method for Simulation of Wave Breaking on Vertical
Seawall, Journal of Japan Society of Civil Engineers, Ser. B2 (Coastal Engineering),
70(2), 21-25, 2014 (in Japanese). [Link]
37) Tsuruta, N, Khayyer, A. and Gotoh, H.: Proposal of Novel Wave-Making Model for
Numerical Flume by the Accurate Particle Method, Journal of Japan Society of Civil
Engineers, Ser. B2 (Coastal Engineering), 70(2), 31-35, 2014 (in Japanese). [Link]
38) Khayyer, A., Gotoh, H. and Tsuruta, N.: A New Surface Tension for Particle Methods
with Enhanced Splash Computation, Journal of Japan Society of Civil Engineers, Ser. B2
(Coastal Engineering), 70(2), 26-30, 2014. [Link]
39) Khayyer, A., Gotoh, H., Park J.C., Hwang S.C. and Koga, T.: An enhanced fully
Lagrangian coupled MPS-based solver for fluid-structure interactions, Journal of JSCE
6
(Coastal Eng.), ISSN: 1884-2399, 71, 883-888, 2015. [Link]
40) Gotoh, H., Khayyer, A., Ikari, H. and Shimizu, Y.: Wave propagation simulation by
accurate MPS method with high energy conservation property, Journal of JSCE (Coastal
Eng.), ISSN: 1884-2399, 71, 25-30, 2015 (in Japanese). [Link]
ConferencePapers(International)
41) Khayyer, A., Yeganeh-Bakhtiary, A., Ghaheri, A., Gotoh, H. and Sakai, T.: Numerical
Study of Turbulence Dynamics in Plunging & Surging Breaking Waves, XXXI IAHR
Congress, Seoul, Korea, pp. 5942-5950, September 2005.
42) Khayyer, A., Yeganeh-Bakhtiary, A., Gotoh, H. and Sakai, T.: Numerical Study of
Turbulence Structure in Surging Breaking Waves, Proc. Arabiancoast Conference,
Dubai, UAE, November 2005.
43) Gotoh, H., Khayyer, A. and Shao, S.D.: Corrected Incompressible SPH Model for the
Simulation of Wave Breaking and Post-Breaking, Violent Flows 2007, Fukuoka, Japan,
pp. 47-53, November 2007.
44) Khayyer, A., Gotoh, H. and Shao, S.D.: Corrected Incompressible SPH method for
accurate water-surface tracking in plunging breaking waves, APCOM07 in conjunction
with EPMESC, Kyoto, Japan, pp. 268, December 2007.
45) Khayyer, A., Gotoh, H. and Shao, S.D.: Corrected SPH for incompressible fluid for
accurate water-surface tracking in breaking waves, International Conference on Coastal
Engineering, Hamburg, Germany, pp. 132-143, September 2008.
46) Gotoh, H. and Khayyer, A.: Improved MPS methods for refined simulation of free-
surface hydrodynamic flows, 8th International Conference on Hydroscience and
Engineering, Nagoya, Japan, pp. 605, September 2008.
47) Khayyer, A., Gotoh, H. and Shao, S.D.: An improved incompressible SPH method for
wave impact simulations, 4th international SPHERIC workshop, Nantes, France, pp. 286-
293, May 2009.
48) Gotoh, H., Khayyer A. and Ikari, H.: Simulation of SPHERIC benchmark test 2, 3D
schematic dam break and evolution of the free surface, by an improved parallelized
particle method and SPHysics, 4th international SPHERIC workshop, Nantes, France, pp.
265-272, May 2009.
49) Khayyer, A. and Gotoh, H.: Wave impact calculations by improved SPH methods, 19th
International Offshore and Polar Engineering, ISOPE 2009, Osaka, Japan, pp. 340-347,
June 2009.
7
50) Gotoh, H, Khayyer, A., Ikari, H. and Hori, C.: Refined reproduction of a plunging
breaking wave and resultant splash-up by 3D-CMPS method, 19th International Offshore
and Polar Engineering, ISOPE 2009, Osaka, Japan, pp. 518-524, June 2009.
51) Khayyer, A. and Gotoh, H.: Improved MPS methods for wave impact calculations,
Proceedings of Coastal Dynamics 2009, World Scientific Publication, Tokyo, Japan,
paper No. 4, September 2009.
52) Gotoh, H, Khayyer, A., Ikari, H. and Hori, C.: 3D-CMPS method for improvement of
water surface tracking in breaking waves, Proceedings of Coastal Dynamics 2009, World
Scientific Publication, Tokyo, Japan, paper No. 5, September 2009.
53) Khayyer, A. and Gotoh, H.: Refined wave impact pressure calculations by an enhanced
particle method, Proceedings of Coastal Structures 2011, Paper No. C1-79, Yokohama,
Japan, September 2011.
54) Hori, C., Gotoh, H., Khayyer, A. and Ikari, H.: Simulation of flip-through wave impact
by CMPS method with SPS turbulence model, Proceedings of Coastal Structures 2011,
Paper No. A8-26, Yokohama, Japan, September 2011.
55) Ikari, H., Gotoh, H. and Khayyer, A.: Numerical Simulation on Moored Floating Body
in Wave by Improved Particle Method, Proceedings of Coastal Structures 2011, Paper
No. A8-28, Yokohama, Japan, September 2011.
56) Khayyer, A. and Gotoh, H.: A consistent particle method for simulation of multiphase
flows with high density ratios, 7th international SPHERIC workshop, Prato, Italy, pp. 340-
346, May 2012.
57) Gotoh, H. and Khayyer, A.: An improved consistent 3D particle method for enhanced
wave impact calculations, 7th international SPHERIC workshop, Prato, Italy, pp. 375-380,
May 2012.
58) Khayyer, A., Gotoh, H., Ikari, H. and Tsuruta, N.: An Enhanced Particle Method for
Simulation of Violent Multiphase Flows, Proc. 2nd International Conference on Violent
Flows, Nantes, France, pp.51-57, 2012.
59) Gotoh, H., Khayyer, A., Ikari, H. and Tsuruta, N.: An Improved 3D Particle Method for
Violent Wave Impact Calculations, Proc. 2nd International Conference on Violent Flows,
Nantes, France, pp.188-193, 2012.
60) Khayyer, A., Gotoh, H., Ikari, H. and Tsuruta, N.: A Novel Error-Minimizing Scheme
to Enhance the Performance of Compressible-Incompressible Multiphase Projection-
Based Particle Methods, 8th international SPHERIC workshop, Trondheim, Norway, pp.
68-73, June 2013.
8
61) Tsuruta, N., Khayyer, A., Gotoh, H., Ikari, H.: A Simple and Effective Scheme for
Dynamic Stabilization of Particle Methods, 8th international SPHERIC workshop,
Trondheim, Norway, pp. 55-61, June 2013.
62) Khayyer, A., Gotoh, H. and Tsuruta N.: A Novel Laplacian-Based Surface Tension
Model for Particle Methods, 9th international SPHERIC workshop, Paris, France, pp. 64-
71, June 2014.
63) Tsuruta N., Khayyer, A. and Gotoh, H.: Space Potential Particles as Free-Surface
Boundary Condition in Projection-Based Particle Methods, 9th international SPHERIC
workshop, Paris, France, pp. 56-63, June 2014.
64) Khayyer, A. and Gotoh, H.: A Multi-Phase Compressible-Incompressible Particle
Method for Water Slamming, The Twenty-fifth International Offshore and Polar
Engineering Conference, International Society of Offshore and Polar Engineers, Kona,
Hawaii, USA, ISOPE-I-15-397, June 2015.
65) Hwang, S.C., Khayyer, A., Gotoh, H. and Park, J.C.: Simulations of Incompressible
Fluid Flow-Elastic Structure Interactions by a Coupled Fully Lagrangian Solver, The
Twenty-fifth International Offshore and Polar Engineering Conference, International
Society of Offshore and Polar Engineers, Kona, Hawaii, USA, ISOPE-I-15-398, June
2015.
66) Gotoh, H., Khayyer, A. and Shimizu, Y.: Improvement of Energy Conservation in
Particle Methods with Enhanced Schemes, The Twenty-fifth International Offshore and
Polar Engineering Conference, International Society of Offshore and Polar Engineers,
Kona, Hawaii, USA, ISOPE-I-15-396, June 2015.
67) Khayyer, A., Gotoh, H., Shimizu, Y. and Gotoh, K.: On Enhancement of Energy
Conservation Properties of ISPH and MPS Methods, 10th international SPHERIC
workshop, Parma, Italy, pp. 139-146, June 2015.
68) Gotoh, H., Tsuruta, N. and Khayyer, A.: A novel multi-scale technique for projection-
based particle methods, 10th international SPHERIC workshop, Parma, Italy, pp. 147-154,
June 2015.
69) Khayyer, A., Gotoh, H., Falahaty, H. and Koga, T.: Enhanced Fully-Lagrangian MPS-
Based Solvers for Violent Incompressible Fluid Flow, Non-Linear Elastic Structure
Interactions, Proceedings of 3rd international conference on Violent Flows, Osaka, Japan,
Paper No. 15, March 2016.
ConferencePapers(Domestic)
70) Khayyer, A., Yeganeh-Bakhtiary, A., Ghaheri, A. and Asano, T.: Numerical Simulation
of Wave Transformation Phenomena in Surf Zone, Proc. 2nd National Civil Engineering
Congress, Iran University of Science and Technology, Iran, No. 1089, April 2005.
9
71) Khayyer, A., Gotoh, H, Ikari, H. and Hori, C.: Development of 3D parallelized CMPS-
HS method with a dynamic domain decomposition approach, Proceedings of
International Sessions in Conference on Coastal Engineering, JSCE, 1, 6-10, November
2010.
72) Khayyer, A., Gotoh, H, Ikari, H.: Refined simulations of violent sloshing flows by an
enhanced particle method, Proceedings of International Sessions in Conference on
Coastal Engineering, JSCE, 2, 6-10, November 2011.
73) Khayyer, A., Gotoh, H, Ikari, H.: Development of a novel 3D higher order Laplacian
model for enhanced prediction of wave impact pressure calculation in 3D MPS-based
simulations, Proceedings of International Sessions in Conference on Coastal
Engineering, JSCE, 3, 11-15, November 2012.
74) Khayyer, A., Gotoh, H., Tsuruta, N., Kubota, H. and Yamamoto, K.: An Enhanced
Multiphase MPS Method for Simulation of Violent Sloshing Flows Characterized by Air
Entrapment/Entrainment, Proceedings of International Sessions in Conference on Coastal
Engineering, JSCE, 4, 6-10, November 2013.
OTHER PRESENTATIONS
1. Gotoh, H. and Khayyer, A.: “Improved MPS Methods for Attenuation of Pressure
Fluctuation”, Annual Meeting on Particle Methods, the University of Tokyo, February
2008.
2. Gotoh, H. and Khayyer, A.: “Development of 3D Parallelized CMPS Method”, Annual
Meeting on Particle Methods, the University of Tokyo, March 2009.
3. Khayyer, A. and Gotoh, H.: “Enhancement and Stabilization of MPS method with
Applications to Multiphase Flows”, Annual Meeting on Particle Methods, the Univ. of
Tokyo, February 2011.
4. Khayyer, A. and Gotoh, H.: “Enhancement and Stabilization of MPS method for
Simulation of Multiphase Flows Characterized by High Density Ratios”, Annual Meeting
on Particle Methods, the Univ. of Tokyo, March 2013.
PATENT
Gotoh, H. and Khayyer, A.: Method and device for determining interface particle used in
particle method, and program for determining interface particle, US 20110172948 A1, July
14, 2011. [Link]
10
SCIENTOMETRIC DATA
Elsevier's Scopus Data: ISI Web of Science Data:
Scopus Author ID: 23396958000 [Link] Number of documents: 24 [Link]
Number of documents: 24 Number of citations: 461
Citations: 540 total citations by 288 documents h-index: 12
h-index: 12
Google Scholar Data:
Number of documents: 68 [Link]
Citations: 923
h-index: 14
i10-index: 14
INTERNATIONAL SCIENTIFIC ACTIVITIES
Associate Editor: International Journal of Offshore and Polar Engineering (IJOPE) Editorial Board: Applied Ocean Research Reviewer: Applied Ocean Research
Applied Mathematics and Computation
Computer Methods in Applied Mechanics and Engineering
Computers and Fluids
Computer Physics Communications
Computational Particle Mechanics
Coastal Engineering Journal
Computers and Mathematics with Applications
European Journal of Mechanics - B/Fluids
Fluid Dynamics Research
International Journal for Numerical Methods in Fluids
International Journal of Offshore and Polar Engineering
11
International Journal of Computational Fluid Dynamics
International Journal of Heat and Mass Transfer
Journal of Computational Physics
Journal of Ocean Engineering and Marine Energy
Journal of Hydraulic Research
Journal of Fluids and Structures
Journal of Waterway, Port, Coastal and Ocean Engineering
Ocean Engineering
Ocean Modelling
ISOPE International Conferences
Technical Program
Committee: ISOPE 2015, ISOPE 2016
PROFESSIONAL ASSOCIATIONS
- Member of Japan Society of Civil Engineers (JSCE)
- Member of Japan Society of Computational Engineering and Science (JSCES)
- Member of International Association of Hydraulic Engineering and Research (IAHR)
- Member of Research Committee of Computational Wave Flume (JSCE)
- Scientific Committee member of SPHERIC (SPH European Research Interest
Community)
COMPUTER SKILLS
Programming Languages: FORTRAN, C++, MATLAB, Visual Basic
Parallel programming: MPI
Data processing software: Tecplot, SigmaPlot, MS Office, IGOR Pro
Graphics: Adobe Illustrator, Adobe Photoshop, Adobe InDesign
Engineering Packages: SAP2000, SAFE, AutoCAD, Plaxis
Mathematical/Statistical Packages: SPSS, Mathematica
12
LANGUAGES
Persian (Mother Tongue)
English (Excellent in Speaking, Listening, Reading and Writing)
Arabic (Fair in Reading and Writing)
Japanese (Fair in Listening and Speaking)
RESEARCH INTERESTS Particle Methods
Computational Fluid Dynamics
Fluid-Structure Interaction
Turbulence Modeling
RESEARCH GRANTS Grant-in-Aid for Young Scientists by Japan Society for the Promotion of Science,
“Development of an accurate and efficient particle method for practical simulations of
multiphase fluid flows”, April 1, 2013~March 31, 2015. [Link]
Grant-in-Aid for Young Scientists by Japan Society for the Promotion of Science,
“Development of a computational method for hydroelastic multiphase water slamming
problems”, April 1, 2016~March 31, 2018.
REFERENCES
1. Prof. Hitoshi Gotoh
Professor
Department of Civil and Earth Resources Engineering
Kyoto University, Katsura Campus
Nishikyo-ku, Kyoto, 615-8540
Tel: +81-75-383-3309
Fax: +81-75-383-3311
Email : [email protected]
2. Dr. Abbas Yeganeh Bakhtiary
Associate Professor
13
14
College of Civil Engineering
Iran University of Science and Technology
Narmak, Tehran 16844, IRAN
Tel: +98-21-7724-0096
Fax: +98-21-7724-0398
Email: [email protected]
3. Dr. Abbas Ghaheri
Associate Professor
College of Civil Engineering
Iran University of Science and Technology
Narmak, Tehran 16844, IRAN
Tel: +98-21-7724-3116
Fax: +98-21-7724-0398
E-mail: [email protected]
4. Dr. Songdong Shao
Senior Lecturer
Department of Civil and Structural Engineering
The University of Sheffield
Mappin Street, Sheffield, S1 3JD
Telephone: +44 (0) 114 222 5783
Fax: +44 (0) 114 222 5700
E-mail: [email protected]